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1. Why Am I Supposed to Love Math?: Digital Mathematics Storytelling in Asian American Communities

   Chao, Theodore; Hidayat, Angga; Oliwe, Ruth N (October 2023, Proceedings of the Forty-Fifth Annual Meeting of the North American Chapter of the International Group for the Psychology of Mathematics Education)

   Lamberg, T; Moss, D (Ed.)

   In this research study, we detail how Digital Mathematics Storytelling, in which youth create video stories detailing the mathematics knowledge existing within their families and communities, can actively create counter-stories to the model minority myth. Through intergenerational video storytelling in historic Asian American communities, the research team and participants used a community participatory action research and narrative inquiry framework to engage elementary and middle-school aged youth in mathematics-based storytelling that not only detailed the painful effects of the model minority myth but also showcased that mathematics identities within Asian American communities can be rich and joyful. 

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2. Powering Up Preschool Science: A Home–School–Community Partnership to Support Science Learning with a Focus on Emergent Multilingual Learners

   https://doi.org/10.3390/educsci14070785  

   Young, JM; Hoisington, C; Kook, JF; Ramer, M (July 2024, Education Sciences)

   All children, including emergent multilingual learners (EMLs), are primed to engage with science from an early age. Yet preschool educators traditionally have not been offered in-depth professional learning (PL) in science, how to teach it effectively to young EMLs, and how to communicate its importance to families. This quasi-experimental study investigated a partnership model designed to engage early educators, children’s families, informal science educators, and STEM role models at an informal science learning environment (ISLE)in collaboratively supporting high-quality science experiences for young EML children at school, at home, and in the community. The study examined the effects of a multi-faceted PL program on educators’ beliefs and attitudes toward science and their classroom instructional practices. Caregivers were surveyed and interviewed to assess their beliefs and attitudes around early science learning. Results indicated that educators in the treatment condition gained confidence in supporting science with EMLs and showed significant increases in instructional quality relative to comparison classrooms. Caregivers rated themselves as more confident in supporting science with their children. Promoting partnerships between preschools and ISLEs can be an effective way to power up educators’ and families’ capacities to activate young EMLs’ science inquiry, learning, and language development across multiple contexts. 

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3. Designing culturally situated playful environments for early STEM learning with a Latine community

   Bermudez, Vanessa N; Salazar, Julie; Garcia, Leiny; Ochoa, Karlena D; Pesch, Annelise; Roldan, Wendy; Soto-Lara, Stephanie; Gomez, Wendy; Rodriguez, Rigoberto; Hirsh-Pasek, Kathy; et al (July 2023, Early childhood research quarterly)

   Children from underserved, minoritized, and immigrant families have less access to early out-of-school STEM learning opportunities. Playful Learning Landscapes increase the accessibility of early STEM learning in everyday public spaces (e.g., bus stops, grocery stores) by merging principles of guided play and STEM learning goals with local community's values. We used community-based design research to (1) identify Latine families’ funds of knowledge related to play, science, and math learning, and (2) create designs for playful environments merging families’ values and practices with guided play and STEM learning principles. Our design partners were 32 parents, primarily Spanish-speaking immigrant mothers from Mexico, and two directors of a local community organization. The design process consisted of co-design sessions, interviews, inductive thematic analysis, elaboration, playtest and feedback, and iteration. Our findings showed that familismo, heritage representation, and the meaning of community spaces influenced the ways families engaged in STEM learning and the learning environments they desired in their community. Moreover, families’ STEM practices were rooted in everyday experiences of playing cultural games, family food routines, and outdoor activities. Incorporating Latine parents in the design process and leveraging their funds of knowledge resulted in culturally situated designs aligned with playful and STEM learning principles. This study contributes to knowledge of Latine families’ values and practices that can help create home-community connections to strengthen children's learning. 

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4. Supporting Interactive Storytelling with Block-Based Narrative Programming

   https://doi.org/10.1007/978-3-030-92300-6_41  

   Smith, A.; Boulden, D.; Mott, B.; Hubbard-Cheuoua, A.; Minogue, J.; Oliver, K.; Ringstaff, C. (December 2021, Proceedings of the Fourteenth International Conference on Interactive Digital Storytelling)

   Recent years have seen growing interest in utilizing digital storytelling, where students create short narratives around a topic, as a means of creating motivating problem-solving activities in K-12 education. At the same time, there is increasing awareness of the need to engage students as young as elementary school in complex topics such as physical science and computational thinking. Building on previous research investigating block-based programming activities for storytelling, we present an approach to block-based programming for interactive digital storytelling to engage upper elementary students (ages 9 to 10) in computational thinking and narrative skill development. We describe both the learning environment that combines block-based narrative programming with a rich, interactive visualization engine designed to produce animations of student generated stories, as well as an analysis of students using the system to create narratives. Student generated stories are evaluated from both a story quality perspective as well as from their ability to communicate and demonstrate computational thinking and physical science concepts and practices. We also explore student behaviors during the story creation process and discuss potential improvements for future interventions. 

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5. Promoting parent-child shared reading with a bilingual conversational agent

   https://doi.org/10.1016/j.ijhcs.2025.103489  

   He, Kunlei; Cervera, Kelsyann; Levine, Julian; Xu, Ying; Collins, Penelope; Warschauer, Mark (May 2025, International Journal of Human-Computer Studies)

   Recognizing the challenges bilingual children face in school readiness and the potential of bilingual dialogic shared reading in improving language and literacy, this study investigates the use of a bilingual conversational agent (CA) to enhance shared reading experiences in home environments. While current CAs hold promise in fostering young children's learning, they do not typically consider the linguistic and cultural needs of bilingual children and rarely involve parents intentionally. To this end, we developed a bilingual CA, embedded within ebooks, to support children's language learning and parent engagement for Latine Spanish-English bilingual families. A week-long home-based study with 15 families indicated that the bilingual CA elicited a high level of bilingual verbal engagement from children, thereby promoting their vocabulary acquisition. It also stimulated meaningful conversations among parents and children. This study provides design implications for developing CAs for bilingual children and parents. 

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